2022
DOI: 10.1002/cbic.202200311
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Regioselective Biocatalytic C4‐Prenylation of Unprotected Tryptophan Derivatives

Abstract: Regioselective carbonÀ carbon bond formation belongs to the challenging tasks in organic synthesis. In this context, CÀ C bond formation catalyzed by 4-dimethylallyltryptophan synthases (4-DMATSs) represents a possible tool to regioselectively synthesize C4-prenylated indole derivatives without site-specific preactivation and circumventing the need of protection groups as used in chemical synthetic approaches. In this study, a toolbox of 4-DMATSs to produce a set of 4-dimethylallyl tryptophan and indole deriva… Show more

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Cited by 9 publications
(6 citation statements)
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“…376 A related 4-DMATS enzyme from the organism A. japonicus was recently found to accept a variety of tryptophan derivatives with exceptional site selectivity in high yields even at relatively high substrate loadings. 377 The 4-DMATS enzymes were the first prenyltransferases to be characterized, and shortly thereafter, the 7-DMATS analogue from A. f umigatus was discovered. 378 This enzyme has a broader substrate scope than FgaPT2.…”
Section: C−c Bond Forming Reactionsmentioning
confidence: 99%
See 1 more Smart Citation
“…376 A related 4-DMATS enzyme from the organism A. japonicus was recently found to accept a variety of tryptophan derivatives with exceptional site selectivity in high yields even at relatively high substrate loadings. 377 The 4-DMATS enzymes were the first prenyltransferases to be characterized, and shortly thereafter, the 7-DMATS analogue from A. f umigatus was discovered. 378 This enzyme has a broader substrate scope than FgaPT2.…”
Section: C−c Bond Forming Reactionsmentioning
confidence: 99%
“…While these substrates were typically prenylated in low yield, this enzyme was later found to be competent for the site-selective prenylation of cyclo- l -Trp- l -Tyr and other diketopiperazines, albeit at higher enzyme loading . A related 4-DMATS enzyme from the organism A. japonicus was recently found to accept a variety of tryptophan derivatives with exceptional site selectivity in high yields even at relatively high substrate loadings …”
Section: C–h Functionalizationmentioning
confidence: 99%
“…374 A related 4-DMATS enzyme from the organism A. japonicus was recently found to accept a variety of tryptophan derivatives with exceptional site selectivity in high yields even at relatively high substrate loadings. 375 The 4-DMATS enzymes were the first prenyltransferases to be characterized, and shortly thereafter the 7-DMATS analogue from A. fumigatus was discovered. 376 This enzyme has a broader substrate scope than FgaPT2.…”
Section: Prenylationmentioning
confidence: 99%
“…[18][19][20] IPTs have shown to facilitate the synthesis of a complex natural product alkaloid [21] as well as the semipreparative synthesis of regiospecific l-and d-indole derivatives. [22] Different IPTs have been functionally characterized that catalyze the CÀ H bond activation at each of the non-fusion carbons including C6 via Friedel-Crafts alkylation. [23,24] In this regard, PriB is a promiscuous C6 IPT that accommodates various indole-derived compounds and achieves a C1' normal prenylation reaction (Figure 1B, 3 a).…”
Section: Introductionmentioning
confidence: 99%
“…IPTs have relaxed acceptor and donor specificities allowing them to be used as a valuable tool for indole late‐stage functionalization and labelling [18–20] . IPTs have shown to facilitate the synthesis of a complex natural product alkaloid [21] as well as the semipreparative synthesis of regiospecific l ‐ and d ‐indole derivatives [22] …”
Section: Introductionmentioning
confidence: 99%